DE500265C - Prisms and prism arrangements for photographic and cinematographic three-color cameras - Google Patents

Description

Prisms and. Prism array for photographic and cinematographic Three-color cameras The present invention shows prisms and prism arrangements, which makes it possible to use a color camera for both photographic and cinematographic Purposes to create. This camera is based on the premise that the three completely identical partial images are designed by a lens, and that the Beam bundle is split behind the lens. The prism arrangement fulfills the Condition that the partial images in one plane and on a common baseline lie.

At the z. Z. known division systems for in a plane on a The partial images on the baseline are the glass paths and thus the focal lengths of the lens very long.

The invention has the advantage that upright partial images on a common base line next to one another in one Lie level and in this partial image position the reflection surface on a small number restrict, whereby the light path becomes very short.

The two side images offset to the optical axis require one Relocation of part of the bundle of rays required for image generation. This shifting of the beam path results in the one given by the focal length of the lens Distance of the image plane moved closer to the lens. He will at a given distance of the side images, the greater the fewer reflection surfaces in the side image beam path lie. If the images of the individual colors should all lie in one plane the rays for the central image are first guided into the image plane in a roundabout way. If the same image position is required of all partial images, then the number of reflection surfaces must be be the same for each partial image, or the number of reflective surfaces of the central image must be twice as large or only half as large as that of each of the side-image prism systems be.

The already known devices with the same image position are equipped with prism arrangements, which have twelve reflective surfaces.

: Subject of the invention, the prism arrangement is made so that the Number of reflective surfaces is the least, and that the glass path is assumed Image size, lens focal length and light intensity is as short as possible.

The lowest number of reflective surfaces for the required image position should be eight. In this case the center image prism would be four, the two side image prisms each have two reflective surfaces.

But it is more useful to set the number of reflective surfaces on each Distribute the prism block evenly. Because the central prism has at least three reflective surfaces must have, nine reflective surfaces are necessary for the dividing system.

By the example shown in Figs the Invention are the three beam paths through a three-time reflection in the image plane guided.

Fig. X shows a side view of the prism system and the optical axis. The direction and decomposition of one from the. Lens o emerging thin axially parallel tuft into its partial tuft is shown in the figures the numbers i-i and 2-2 are shown. The dotted line x-i in Figs. I, 2, 3 and q. represents the beam path of the bundle in the central prism, the line 2-2 in Figs. i, 2, 3 and 5 show the beam path of the side ray bundles. Fig. 2 shows the front view of the prism system. The beam path is in the Direction of the optical axis traced. While the bundle of rays i-i for the central image is deflected upwards, the two side bundles of rays 2-2 become symmetrical depending to the right Ühd down left reflected to the base of the side image prisms, to be directed from this to the third reflection surface and from there into the image plane to become. In Fig.3 the prism system is shown in plan. This figure shows the position of the partial images Bg, By, Bb and the course of the three image axes 2-2, 1-x, 2-2. The section u-v from the plan Fig. 3 shows in Fig. Q. the course of the Beam path x-i in the cemented central prism block. In Fig. 5 is the left side prism block, which is also cemented together, shown. That optically effective profile of the side prisms is in Fig. 6 in section along the line Y-Z of the Fig. 5 shown.

Claims (1)

PATENT CLAIM: Prisms and prism arrangements for photographic and cinematographic three-color cameras in which the light coming from the lens is only directed and divided by reflection in such a way that the partial images lie in the same position on a common base line and each partial bundle goes through only one prism block each Side images are deflected by an oblique triangular prism for reasons of expediency, characterized in that the overall division system has a maximum of nine reflection surfaces, which is expediently achieved in that a straight erecting prism is provided for the central image rays and an oblique triangular prism for the side image rays, so that all partial image rays after three times Reflection in the image plane.